\begin{document}${\mathrm{S}}{{\text{b}}_{{\mathrm{Te}}}}_{_2}$\end{document} antisite defect, which generates the antisite defect \begin{document}${\mathrm{S}}{{\text{b}}_{{\mathrm{Te}}}}_{_2}$\end{document} and accompanied with the increase of the minority carrier concentration from 2.09×1016 to 3.99×1017 cm–3. The increase of the minority carrier severely deteriorates the electrical transport properties. In contrast, alloying Se in the Bi1.8Sb0.2Te2.994–ySeyCl0.006 compound significantly lowers the formation energy of the complex defect \begin{document}${\mathrm{S}}{{\mathrm{e}}_{{\mathrm{Te}}}}$\end{document}+\begin{document}${\mathrm{S}}{{\mathrm{b}}_{{\mathrm{Bi}}}}$\end{document}, which becomes more energetically favorable and suppresses the formation of the antisite defect \begin{document}${\mathrm{S}}{{\text{b}}_{{\mathrm{Te}}}}_{_2}$\end{document}. As a result, the concentration of minority carriers decreases to 1.46×1016 cm–3. This eliminates the deterioration effect of the minority carrier on the electrical transport properties of the material and greatly improves the power factor. A maximum power factor of 4.49 mW/(m·K2) is achieved for Bi1.8Sb0.2Te2.944Se0.05Cl0.006 compound at room temperature. By reducing thermal conductivity through intensifying the phonon scattering via alloying Sb and Se, the maximum ZT value of 0.98 is attained for Bi1.8Sb0.2Te2.844Se0.15Cl0.006 compound at room temperature. Our finding provides an important guidance for adjusting point defects, carrier concentrations, and thermoelectric performances in Bi2Te3-based compounds with complex compositions."> Defect structure regulation and thermoelectric transfer performance in n-type Bi<sub>2–<i>x</i></sub> Sb<sub><i>x</i></sub>Te<sub>3–<i>y</i></sub>Se<sub><i>y</i></sub>-based compounds - 必威体育下载

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    Li Rui-Ying, Luo Ting-Ting, Li Mao, Chen Shuo, Yan Yong-Gao, Wu Jin-Song, Su Xian-Li, Zhang Qing-Jie, Tang Xin-Feng
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    • Abstract views:1076
    • PDF Downloads:33
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    Publishing process
    • Received Date:15 January 2024
    • Accepted Date:01 March 2024
    • Available Online:12 March 2024
    • Published Online:05 May 2024

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